I N ABS E N T I A
FACULTY OF ENGINEERING
Bachelor of Commerce and Bachelor of Mechanical Engineering( Honours)
Charley Ma
Bachelor of Computer Science and Bachelor of Software Engineering( Honours)
Rory Brennan Tobin-Underwood
Bachelor of Industrial Design and Bachelor of Mechanical Engineering( Honours)
Harrison William Carr
Bachelor of Chemical Engineering( Honours)
Jun Jie Lim
Bachelor of Civil Engineering( Honours)
Xiong Ruilin
Bachelor of Robotics and Mechatronics Engineering( Honours)
Cheah Pei Chung Cheah Wei Shang Yejin Kim Jarrett Ethan Kai Zhun Lee Sarventar Periaswamy Tan Xin Yi
Bachelor of Software Engineering( Honours)
Tan Jun Yu Tan Weijin Wong En Xin
42 GRA DUA TION C EREM ONY
Master of Applied Engineering
Cheng Wei Yuehui Jiang Lin Lishen Luo Lie Sun Xinzhen
Master of Civil Engineering Yuhan Zhang
Master of Electrical Engineering
Juping Lu Zehan Wang Kai Yang
Master of Materials Engineering Yingyan Cao
Master of Professional Chemical Engineering
Rushabhkumar Kamleshbhai Rachhadiya
Master of Professional Civil Engineering
Hao Huang
Master of Professional Mechanical Engineering
Cong Thanh Dinh
Master of Renewable Energy Engineering
Xiaotong Wang
DOCTOR OF PHILOSOPHY
Keong Jin( Award Conferred 30 April 2025)
Title of Thesis:‘ Controlling Cardiac Alternans in a 3-Dimensional Electrophysiological Model of the Left Ventricle.’
Explore the application of feedback control method implemented at two independent sites to control cardiac action potential duration alternans, a precursor to fatal cardiac arrhythmia on a 3D model of the left ventricle. The 3D model is constructed specifically for this purpose.
Supervisor: Dr Liang Shiuan Ni Associate Supervisor: Associate Professor Boon Leong Lan
Zeyu Li( Award Conferred 7 July 2025)
Title of Thesis:‘ Numerical Investigation of the Mechanisms of Cyclone in Supercritical Water Environments and Dry Powder Inhalation.’
This thesis focuses on the investigation of cyclone separators in supercritical environments and miniature cyclones for inhalation drug delivery. The study utilizes numerical simulations to explore the behavior of particles in cyclones operating with supercritical fluid-solid flow. The effects of geometric variations and the presence of supercritical carbon dioxide on the performance of cyclones operating with supercritical fluid-solid flow are analyzed. Additionally, ten different miniature cyclones with varying structures, flow rates, and particle sizes are designed to understand their impact on the emitted dose. The study also investigates modifications to the grid structure in miniature cyclones to improve their delivery performance. Overall, this research provides valuable insights into the mechanisms of cyclone separation in supercritical environments and offers potential advancements in the design of inhaler devices for pharmaceutical applications. completion times.
Supervisor: Professor Aibing Yu Supervisor: Professor Zhenbo Tong